SOMATOM Definition AS

Transcription

www.siemens.com/healthcare
Maximize Outcome. Minimize Dose.
Answers for life.
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SOMA
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ATOMSOMATOM
Definition
Definition ASAS
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Siemens
Siemens CT Vision
CT Vision
Today’s reality
Better healthcare for all patients is a key
priority for the entire medical industry. But
the realities of clinical practice often make
this simple-to-understand goal quite
difficult to realize: staying within budgets,
reducing hospital stays, speeding up time
to diagnosis, and dealing with personnel
issues, while maintaining high clinical
standards and throughput. At the same
time, patients demand better and faster
results.
Our approach
In order to meet our share of responsibility
in addressing these challenges, Siemens,
from the earliest stages of research,
product development, and design, relies
upon the advice and recommendations of
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external medical experts to determine our
focus – and this focus has been on the
needs and demands of our end users. Over
the years, this focus has been fine-tuned
in four key areas:
◾ to lead technological and medical
advancement
◾ to maximize workflow efficiency
◾ to make state-of-the-art CT affordable
◾ to set the standard in customer care.
Our vision
As customer-oriented healthcare provider,
Siemens CT creates CT innovations that
lift clinical practice to the next level of
excellence and enable wide access to
better patient care. We believe that even
the farthest technical horizons are
temporary and can be surpassed with
consistent dedication to improved
healthcare. This visionary approach,
backed up by the far largest Siemens R&D
budget in the healthcare industry, has
made Siemens the acknowledged
innovation leader over the last decades.
And our ambitious global team continues
to set the trend in an always changing
environment, providing Answers for Life.
Leading patient care
More than one thousand institutions
worldwide have already decided to bring
patient care to a new level by utilizing
the fascinating capabilities of the
SOMATOM® Definition AS. Minimizing
patient exposure in every scan, plus
offering new dimensions in CT imaging
brings them to the forefront of patient
care.
Patient-centric productivity
Fueled by the new and unique features
of FAST CARE, the new SOMATOM
Definition AS now lets customers unleash
the full potential of their resources.
Imagine a CT system that assists you in
every step of the examination from
planning to scanning and from reconstructing to evaluating images. Thus
giving you significantly more time for
what is actually of utmost importance:
delivering a precise diagnosis and having
the time to interact and take care of
your patients. Now for the first time,
outstanding image quality acquired at
drastically reduced radiation dose is
combined with unmatched clinical
productivity delivering a new dimension
in clinical efficiency and patient care.
We call it: patient-centric productivity.
Siemens CT Vision
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Single-Click Readiness
Your Single Source for Low Dose CT
Open CT for all Patients
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UPTIME Services
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Configuration Overview
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Maximize
outcome.
Minimize dose.
Maximize outcome
Over the recent years Computed
Tomography has found its way into almost
every clinical discipline. Especially with
the first generation of the SOMATOM
Definition AS from 2007, Siemens
introduced a scanner that for the first time
was capable of adapting to virtually every
patient and every clinical question. But
with CT not being a trivial examination,
it was only natural that the introduction
of CT for new medical fields came along
with high requirements regarding efforts
and expertise of the medical professionals
preparing an examination. Unfortunately,
the time and resources needed for
the preparation are then not available
anymore for diagnosis and patient
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consultations, which in the end should
be the main focus for physicists, technical
assistants and all medical professionals
involved.
Now Siemens is again breaking this
barrier: With the new SOMATOM
Definition AS with FAST CARE you have
the possibility to maximize your clinical
outcome – meaning to have best clinical
results, but with significantly less
resources bound to the CT system. The
ultimate goal is to provide you with more
time for patients – or patient-centric
productivity.
For this Siemens introduced its new FAST
(Fully Assisting Scanner Technologies)
research and development philosophy.
These new FAST features available on
the new SOMATOM Definition AS allow
to simplify typically time consuming
and complex procedures during a CT
examination: the scanning process gets
more intuitive and the results become
more reproducible. By integrating the
capabilities of syngo.via*, the complete
examination – from scan preparation
to data evaluation – is streamlined
towards a more reliable diagnosis with
less patient burden. Ultimately, the
combination of outstanding image quality
and patient-centric productivity is the
lever to maximize your clinical outcome.
*syngo.via can be used as a standalone device or together
with a variety of syngo.via-based software options, which
are medical devices in their own rights.
Minimize dose
From the very beginning, one of the
most important topics for Siemens CT has
been patient safety. And in Computed
Tomography, patient safety translates
primarily into dose reduction. This is why
since decades, Siemens has always been
at the forefront to reduce radiation dose
to the lowest possible level.
Siemens has developed many significant
products and protocols that follow the
“As Low as Reasonably Achievable”
(ALARA) principle to reduce radiation dose
to the lowest possible level. This desire
for as little radiation exposure as possible
lies at the heart of our CARE (Combined
Applications to Reduce Exposure) research
and development philosophy. Over the
years, Siemens has been highly successful
in integrating many innovations into the
Siemens scanners that significantly reduce
radiation dose in comparison to other
systems available on the CT market.
For example, the Adaptive Dose Shield,
introduced with the first SOMATOM
Definition AS in 2007, or IRIS – Iterative
Reconstruction in Image Space – in 2009,
with the capability to reduce dose up to
60% without loss in image quality*.
With the new SOMATOM Definition AS
with FAST CARE, Siemens again introduces
several innovative CARE features like
CARE kV – industry’s first automated
exam-specific kV setting – or the first
raw-data-based iterative reconstruction
SAFIRE (Sinogram Affirmed Iterative
Reconstruction). To give our customers
every means to minimize dose and
consequently take best care of their
patients well-being.
*In clinical practice, the use of IRIS may reduce CT patient
dose depending on the clinical task, patient size,
anatomical location, and clinical practice. A consultation
with a radiologist and a physicist should be made to
determine the appropriate dose to obtain diagnostic
image quality for the particular clinical task. The
following test method was used to determine a up to
60% dose reduction when using the IRIS reconstruction
software. Noise, CT numbers, homogenity, low-contrast
resolution and high contrast resolution were assessed in a
Gammex 438 phantom. Low dose data reconstructed with
SAFIRE showed the same image quality compared to full
dose data based on this test. Data on file.
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10 Single-Click Readiness
Single-Click
Readiness
Every CT examination poses individual and specific requirements to
achieve the optimum clinical outcome. These vary from institution to
institution, from user to user, from patient to patient, The challenge is
to find and apply the ideal settings for every individual examination,
but at the same time achieve a high degree of reproducibility for the
same type of examination when done by different operators.
The new SOMATOM Definition AS with FAST CARE now introduces
Siemens’ unique FAST (Fully Assisting Scanner Technologies) research
and development philosophy to solve this. By automatically suggesting
the best set of parameters for every individual examination based on
the selected body region, the scan and recon planning becomes as fast
as just a single click.
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Introduction
Single-Click Readiness
FAST – Fully Assisting
Scanner Technologies
Utilizing FAST innovations, typically
time-consuming and complex procedures
during the scan process are extremely
simplified and automated, not only
improving workflow efficiency, but
optimizing the overall clinical outcome
by creating reproducible results. This
makes diagnosis more reliable and reduces
patient burden through streamlined
examinations.
Efficient scan and recon
planning
Regardless whether you are about to scan,
reconstruct or evaluate an image, the right
settings are always determined by the organ
to be examined. Based on the respective
organ, the examination type and the
expected image quality, indepth knowledge
of the system settings is required from the
operator. This becomes even more crucial,
when the results need to be reproducible,
especially when the system is being
operated by multiple users. Unfortunately,
this complexity can become a source for
inefficiency or, even worse, errors.
The SOMATOM Definition AS with FAST
CARE is now the first single source CT
scanner that actively assists you in solving
this challenge: FAST Planning prepares
your scan and recon settings based on
the characteristics of the chosen organ.
This not only reduces the efforts needed
to set up an examination, but makes them
highly reproducible and less error-prone.
Especially the highly time-consuming
preparation of a spine recon, is simplified
to ideally just a single click with FAST
Spine. At the end of the day, the new
SOMATOM Definition AS with FAST CARE
helps you to save your highly valuable
time and allows you to spend it more for
the diagnosis and the interaction with
your patients.
Focus on the examination,
not on the system
But it is not only about choosing the
appropriate scan and recon range. Also
setting the right system parameters like
scan time, pitch or tube current is crucial
Anatomically correct spine reconstructions are
typically very time consuming procedures, as every
spinal vertebrae and disc needs to have an own recon
layer depending on its individual position. With FAST
Spine, these manual steps can be simplified to ideally
just a single click.
to achieve best clinical results. Unfortunately,
this is not always trivial and especially when
working in high-demanding environments
like in an ED, time is of the essence.
For this, the new SOMATOM Definition AS
with FAST CARE now offers an amazing
solution: FAST Adjust. With an easy to
understand and easy to use interface
parameters can be simply adjusted or,
when in doubt, defined just with the push
of a button.
Guided routine in cardiac CT
One of the most sophisticated and
demanding examinations in Computed
Tomography is cardiac CT. Not only the
preparations for the scan demand a high
degree of expertise, but also how to prepare
the image evaluation is everything else than
trivial. All the more it is important that the
user, feels safe to have done everything
correctly in order to achieve the best
clinical outcome possible and to avoid any
unnecessary radiation of the patient.
Therefore, the new SOMATOM Definition AS
with FAST CARE introduces the first guided
routine in cardiac CT – the FAST Cardio
Wizard. It explains on a step-by-step basis
how to achieve an optimal cardiac scan,
either for training purposes or in a real-life
situation, thus helping to set institutional
standards and uniform quality.
Fully integrated pre- and
postprocessing
And cardiac CT does not end with the
acquisition of image data. Especially postprocessing of cardiac datasets was up to
now a highly complex procedure consisting
of many manual steps, from removing the
table or the isolation of the heart to labeling
the vessels and calculating all functional
parameters appropriately.
With the utilization of syngo.via, this can
be reduced to just one single click: Simply
choose your patient. All required steps are
already pre-processed by syngo.via* so that
the reading physician can immediately
start with the evaluation of the case.
Your Benefits
Immediate, organ-based scan
and recon range setting with
FAST Planning
Higher reliability and
reproducibility in cardiac CT
with the FAST Cardio Wizard
FAST Adjust allows intuitive
scan parameter adjustment
with the push of a button
Precise spine recon
preparation with just a
single click with FAST Spine
Image evaluation with a
single click Through
syngo.via
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How
FAST Planning
it works
without FAST Planning
Simplify organ-specific
planning
Unfortunately, with conventional planning
procedures, errors can happen quickly.
Especially when time is short, the wrong
scan mode might be chosen, the scan
ranges could be set too short or too long
or the selected protocol was meant for
another organ. This can only be countered
by investing an increased amount of
attention (i.e. time) and expertise to
thoroughly prepare the scan.
Manually setting the scan range
too short in the topogram can cut
off relevant parts of the examined
organ.
Manually setting the scan range
too long in the topogram can
potentially over-radiate the patient.
FAST Planning focuses explicitly on this
critical part of the scan process. Based
on the topogram, FAST Planning assists
the scan and reconstruction planning to
provide an easier, faster and standardized
workflow in CT scanning. The user can
select the anatomical region of interest
(ROI) from a list to define prospectively
the scan and reconstruction ranges. The
scan ROI(s) are automatically detected
based on the characteristics of the organ
that is to be scanned. In addition, the
corresponding scan range(s) are proposed
in the topogram as well. If needed,
the lateral field of view can easily be
narrowed or widened. In the case of
head examinations, the iso-center is
automatically adapted according to the
position of the patient’s head.
with FAST Planning
Scan ranges can be set with just a
single click using FAST Planning.
FAST Planning also helps assure
covering the entire organ precisely
without overscanning.
FAST Planning uses defined anatomical landmarks to set the correct
ranges. When applied manually without FAST Planning, only based on
the coronal view the lower part of the lung could easily be missed
(indicated by the reference line).
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How
FAST Cardio
it works
Wizard
Step-by-step cardiac exam
Among the most complex examinations
are cardiac scans. A lot of parameters and
settings have to be taken into account
and precisely matched to the individual
condition of the patient. Consequently,
the procedure to set up the scan is highly
complex and requires a lot of expertise.
Here the FAST Cardio Wizard is an amazing
assistant: It is an intuitive guidance, fully
integrated in the cardio workflow. The
FAST Cardio Wizard permits training the
workflow and provides guidance and
support during the examination. This is
done, by giving the user step-by-step
explanations for cardiac examinations
directly in the user interface while
preparing the scan. The content is based
on the latest cardio application training
material and provides helpful tips to avoid
common problems and pitfalls. But, of
course, the workflow and its description
can be fully adjusted to the individual
workflow of the user, allowing to fully
customize texts and images. This allows
institutions to create their own quality
standards.
FAST Cardio Wizard guides the user intuitive through
the preparation of cardiac examinations with easy to
follow step-by-step explanations.
How
FAST Spine
it works
Single click spine
Especially in case of the spine, recon
preparation can easily take up to half
an hour or more when the slices have to
be oriented manually and individually
along every vertebrae and disc of the
spine. FAST Spine now solves this
time-consuming situation by providing
various modes that automatically create
anatomically orientated spine recon
ranges. FAST Spine delivers an automatic
segmentation of the spinal canal and
automatic labeling of the vertebrae.
When certain parts of the spine – or
maybe the complete spine – are to be
reconstructed, the Spine multi-mode
provides anatomically oriented slices that
are orthogonal to the spinal canal. The
rotation of each single slice refers to the
curvature of the spinal column. With the
spine disc mode a reconstruction range,
placed and oriented on a specific disc,
is provided. All modes are automatically
prepared by FAST Spine and can be
directly chosen in the user interface.
Thus the operator can simply prepare an
automatically correct spine recon with
just a single click.
Of course, the final decision is always
done by the clinical expert. Therefore all
modes offer the possibility to adapt the
results manually, if needed.
Manual workflow
FAST Spine workflow
Identify vertebrae
and discs
Label vertebrae
and discs
Plan recon layer
for every vertebra
or disc depending
on anatomical
orientation
Reconstruct
respective layer
Repeat for every
vertebra and discs
to be examined
Repeat the 4 steps
depending on the
number of vertebrae
to be examined
Select pre-detected
and pre-defined
recon range for the
spine examination
Single click
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syngo.via
Additional benefits with syngo.via
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Speed in routine –
power in challenging cases
The rule out of Coronary Heart disease
has become a common routine procedure
in many institutions because of the high
negative predictive value of up to 99%
with Siemens SOMATOM CT Scanners.
A time saving reliable rule-out and
reporting therefore can leverage efficiency
significantly. syngo.CT Coronary Analysis
that supports the robust and intuitive
VesselSURF tool, allows for immediate
3D vessel assessment of axial slices, even
without the existence of centerlines or
in occluded vessels. The Single Click
Stenosis function gives you all relevant
information at a glance, such as the
diameter and area stenosis measurements,
the plaque composition, the curved length
for stent planning, the profile curve and
minimum lumen identification.
Dual-monitor layout for instant side-by-side reading.
This is the first view directly after loading the
patient, here of the left and right carotid artery.
Rule-out coronary heart
disease in under a minute
The moment you open a cardiac case the
Automated Case Preparation has already
pre-processed the images and displays
them in your appropriate layout together
with the adequate evaluation tools.
Meaning you can immediately start
evaluating the coronary vessels, the
functional parameters and the prepared
calcium score.
The comprehensive layout for display of
multiple CPR’s permits the review of the
coronary tree with the blink of an eye. All
your findings and key images are collected
in the Findings Navigator on-the-fly as you
read the case. Your result: rule-out and
reporting of coronary artery disease in less
than a minute.
The syngo.CT Cardiac Function – as part
of the CT Cardio-Vascular Engine – allows
you to read and diagnose CT angiography
images of the left heart for the evaluation
of Ischemia or Cardiomyopathy.
On top the application offers to evaluate
the late- or early myocardial enhancement
of single energetic CT data which is
displayed as color overlay. The CardioVascular Engine’s Pro level provides right
ventricular volumetric analysis, which may
have prognostic value for congestive heart
failure, chronic pulmonary disease and
pulmonary emboli.
Single-click stenosis measurement. Three
reference lines are already pre-defined and
displayed side-by-side for immediate overview.
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Single-click
Clinical Results
readiness
Excellent image quality visualizing even smallest details and with
sharp delineation, perfectly adjusted to the selected organ.
Lateral volume rendered view of lumbar spine
fused with the multiplanar reformation.
Volume rendered view highlights
the main coronary arteries.
Neuro DSA subtracts the bony structures completely.
A pure arterial vascular filling can be observed.
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22 Your Single Source for Low Dose CT
Your Single Source
for Low Dose CT
Applying the lowest radiation dose possible is of utmost importance
for both you and of course your patients. Therefore you always want to
be assured that you have taken every means available to you to protect
your patient from unnecessary radiation.
This desire for as little radiation exposure as possible lies at the heart of
our CARE (Combined Applications to Reduce Exposure) research and
development philosophy.
Consequently, with Siemens’ continuing effort, investment and
dedication to achieve highest dose protection, the new SOMATOM
Definition AS now uniquely combines all features available for single
source CT to reduce radiation as low as possible: next to its already
outstanding dose protection portfolio from the initial product
generation, it now also inherited features from the highly renowned
SOMATOM Definition Flash as well as benefits from the new and
innovative dose saving features introduced by Siemens with FAST CARE.
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Introduction
Your Single Source for Low Dose CT
Organ-sensitive dose
protection
Previous attempts at dose reduction were
very successful but did not specifically
take into consideration highly dose
sensitive areas such as women’s breasts
or the heart. Now, the SOMATOM
Definition AS can selectively reduce the
exposure in sensitive areas with Siemens
renowned X-CARE. Furthermore, the
gantry tilt protects dose sensitive organs
like the eyes or the thyroid gland by
moving them out of the x-ray beam in
sequential or spiral scans.
Low dose cardiac CT
Additionally, to reliably deliver excellent
image quality while maintaining lowest
possible dose especially in cardiac
imaging, the SOMATOM Definition AS
offers Adaptive ECG Pulsing for low dose
spiral cardiac examinations and the
Adaptive Cardio Sequence to reduce
radiation down to 1–3 mSv in sequential
cardiac CT.
Low dose spiral CT
But besides cardiac, many of today’s
clinical examinations benefit from spiral
acquisition techniques. However, the
continuous demand for more coverage
and the corresponding increase of
detector size has unveiled a new
challenge: pre- and post-spiral overradiation has significantly grown.
Introduced in 2007, the Adaptive
Dose Shield is Siemens’ answer to the
problem of over-radiation in spiral CT.
It addresses this important safety issue
by dynamically blocking clinically
irrelevant over-radiation in spiral scans.
But of course, not only pre- and post-spiral
matters: one of Siemens’ core dose
protection technologies focuses on spiral
scanning in general: CARE Dose4D™. The
real-time dose modulation guarantees an
unparalleled combination of outstanding
image quality at minimum dose for every
patient in every spiral scan and has proven
its qualities for many years. Now a new
dimension has been added: CARE kV
can in addition automatically set the
X-ray low
X-ray on
X-CARE reduces the tube current close to
zero within a certain range of projections,
minimizing direct exposure for highly dose
sensitive body regions.
appropriate voltage for the examination
and adjust other scan parameters
accordingly, thus delivering certainty of
having highest dose efficiency in every
scan, potentially saving up 60% dose.
Iterative reconstruction
One of the most promising approaches
for the future of CT presents itself with
iterative reconstruction. This method
uses multiple iteration steps in the
reconstruction of CT data, with every
step further eliminating image noise and
artifacts and improving image sharpness.
In doing so, the reconstruction outcome
can achieve significantly increased image
quality, reduced dose by lowering the
initial power needed to acquire the raw
data – or a reasonable balance of both.
But the further integration of raw data
beyond the initial reconstruction process
posed considerable restrains regarding
the computational power available –
up to now: With SAFIRE – Sinogram
Affirmed Iterative Reconstruction –
Siemens introduces a new and unique
approach to iterative reconstruction.
For the first time, raw data information
is actually utilized to enhance the image
quality or reduce dose. This is made
possible by a new reconstruction
algorithm, as well as by the introduction
of a new image reconstruction system,
delivering the required computational
power to achieve this.
Dose visualization and
management
Increasing patient awareness and safety
requirements in the application of X-ray
exposure make it necessary when
selecting a CT scanner to consider not only
the technical features as they exist today,
but also developing conditions for the
future. Dose management is therefore
important to both you and your patients.
For this reason, the new SOMATOM
Definition AS with FAST CARE actively
visualizes dose saving potentials directly
in the user interface and gives you the
opportunity to manage and analyze the
applied dose. This gives you the means to
take care of your patients well-being.
*In clinical practice, the use of SAFIRE may reduce CT
patient dose depending on the clinical task, patient size,
image quality for the particular clinical task. The
following test method was used to determine a 54 to 60%
dose reduction when using the SAFIRE reconstruction
software. Noise, CT numbers, homogeneity, low-contrast
resolution and high contrast resolution were assessed in
a Gammex 438 phantom. Low dose data reconstructed
with SAFIRE showed the same image quality compared to
full dose data based on this test. Data on file.
Your Benefits
CNR and dose optimized kV
settings with CARE kV
X-CARE protects the most
radiation-sensitive organs
The Adaptive Dose Shield
eliminates unnecessary dose
in every spiral scan
Low dose cardiac exams with
Adaptive ECG Pulsing and the
Adaptive Cardio Sequence
Excellent raw-data-based
image quality improvement
or up to 60% dose reduction
with SAFIRE*
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How
CARE Dose4D
it works
and CARE kV
Real-time dose modulation
As early as 1994, Siemens introduced
CARE Dose4D to actively modulate the
applied power for scans depending on the
patients anatomy. CARE Dose4D aims to
regulate the mAs such that image quality
is uniform across the whole scan range.
CARE Dose Configurator provides the
user the ability to select reference curves
for each body region and for each body
habitus individually. With the new
SOMATOM Definition AS with FAST CARE
the configuration options have now
been made even more flexible so that
they can now be perfectly adjusted for
every patient.
CNR optimized kV settings
But CT scanning, consists not only of
adapting mAs values: The right kV settings
play an equal if not even more important
role to achieve optimal clinical outcome.
But changing kV values always comes
along with the need to adapt all other
values according to the respective patient.
Unfortunately, up to now this had to be
done manually and required a lot of
expertise and experience so that often the
full potential for dose reduction remained
untapped. Siemens’ unique CARE kV now
breaks this barrier: CARE kV, an extension
of CARE Dose4D, can automatically
suggest kV and eff. mAs to optimize
the contrast-to-noise-ratio (CNR) of the
image while limiting the applied dose.
The system’s proposal is based on the
attenuation as measured in the topogram
and the user-defined acquisition type
(non-contrast, bone, soft tissue, vascular).
Reducing the tube voltage helps to reduce
radiation exposure to patients. With prior
tube technology, the minimum tube
voltage setting was 80 kV. With the new
improved STRATON tube the voltage range
is extended down to 70 kV. This helps to
further reduce the radiation dose to small
pediatric or neonate patients. These
dedicated pediatric scan modes, bundled
with specific pediatric CARE Dose4D
curves and protocols take care of the
well-being of our youngest patients.
Overall with these features, an additional
dose reduction of up to 60% is possible.
On the other side, the system also
identifies bariatric patients and consequently sets the parameters to make full
use of the system’s reserves to optimize
CNR and acquire the best image quality
possible for these patients.
CARE kV is of course fully customizable,
meaning that the user cannot only set
his individual quality reference mAs, but
can also choose the degree of system
assistance between none, semi and full.
70 kV
80 kV
100 kV
120 kV
140 kV
Example 1: For a contrast media enhanced vessel examination of a
small patient, CARE kV proposes to scan with 70 kV and sets the other
values accordingly.
70 kV
80 kV
100 kV
120 kV
140 kV
Example 2: For a non-contrast examination of a large patient, CARE kV
proposes to scan with 140 kV and sets the other values accordingly.
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How
Adaptiveit
Dose
works
Shield
Conventional tube
collimation
Eliminating over-radiation
in every spiral scan
The SOMATOM Definition AS eliminates
pre- and post-spiral over-radiation (marked
in red). The Adaptive Dose Shield, is part
of the innovative STRATON® X-ray tube
design. It automatically moves shields
into place to block unnecessary dose.
The Adaptive Dose Shield dynamically
opens at the beginning of a spiral range
and then dynamically closes at the end.
Thus clinically irrelevant dose is shielded,
not only for dedicated applications, but
for all standard spiral acquisitions. Giving
you the ability to save up to an additional
25% of dose in routine exams.
Pre-Spiral Dose
Post-Spiral Dose
Image area
Conventional Technology
STRATON with
Adaptive Dose Shield
No Pre-Spiral Dose
No Post-Spiral Dose
Image area
Adaptive Dose Shield
How
SAFIRE it works
Iterative Reconstruction
SAFIRE – Sinogram Affirmed Iterative
Reconstruction – for the first time allows
to utilize the full dose saving potential
of the iterative reconstruction in clinical
practice. Now, raw-data information
(which is visualized in the so-called
sinogram) is actually being utilized in
the image improvement process.
After the initial reconstruction using
the weighted filtered back projection
(WFBP) a first iterative reconstruction
loop is performed. The CT images are
re-transferred to raw-data which models
all relevant geometrical properties of
the CT scanner. This step re-produces
CT raw data like a real scanner does.
By comparing this synthetic raw data
with the acquired data, differences are
identified. A further iteration loop
compares the images with homologous
reference data. This procedure can be
regarded as validating (or affirming) the
current images.
An updated image is then again reconstructed, using the detected deviation
information. In each iteration a dynamic
raw-data-based noise model is applied
that allows for reduction of image noise
without noticeable loss of sharpness. This
optimization process thus makes even
better use of the diagnostic information
contained in the raw data. Using multiple
iterations, geometrical imperfections of
the WFBP are corrected in addition to
incrementally reducing image noise.
With this, SAFIRE allows a radiation dose
reduction of up to 60% or improved image
quality in regards to contrast, sharpness
and noise*.
*In clinical practice, the use of SAFIRE may reduce CT
patient dose depending on the clinical task, patient size,
image quality for the particular clinical task. The following test method was used to determine a 54 to 60% dose
reduction when using the SAFIRE reconstruction software.
Noise, CT numbers, homogeneity, low-contrast resolution
and high contrast resolution were assessed in a Gammex
438 phantom. Low dose data reconstructed with SAFIRE
showed the same image quality compared to full dose
data based on this test. Data on file.
Standard Filtered Back Projection
Ultra-fast
reconstruction
without iterations
Well-established
image impression
Limited dose
reduction
Raw data
recon
SAFIRE*
Raw data
recon
Image data
recon
Image
correction
More powerful dose
reduction than imagebased methods
Well-established
image impression
Superior image
quality
Fast reconstruction
in image and rawdata space and
improved workflow
with variable settings
29
syngo.via
Achieving low dose
in cardiac CT
Usually the evaluation of the CT Cardiac
Function is based on ECG gated spiral CT
data which is relatively dose-intensive.
Therefore, Siemens introduced Adaptive
ECG-Pulsing™, an innovative heartbeatcontrolled dose modulation. It can reduce
dose by up to 50% in spiral cardiac
imaging by only applying the dose
required to collect the necessary data
during the diastolic phase. Its real-time
monitoring of the ECG automatically
and instantly reacts to changes and
abnormalities of the heartbeat and
reduces the dose in phases in which no
data needs to be collected. With Siemens’
unique MinDose the pulsing plateau can
be reduced to a minimum 4% during this
phase, giving additional dose savings.
Integrating low dose data
with syngo.via
The syngo.CT Cardiac Function’s smart
segmentation algorithms can manage
this specific MinDose ECG Data which
can be used for functional evaluation
on top of the coronary assessment.
With conventional CT systems, the data
acquired during the low pulsing windows
is typically discarded without further
use, meaning that the patient was
unnecessarily radiated. With the
integration of MinDose and syngo.via,
now this data can be intelligently used,
saving an additional 20–30% of dose for
full functional assessment through the
use of MinDose data.
Adaptive ECG-Pulsing in Spiral Mode
react
20%
4%
MinDose: 4% pulsing plateau instead of 20% in
conventional CT systems for maximal dose saving
In other words it reduces the dose from
8–12 mSv down to ~ 4 mSv. And with
the Automated Case Preparation, all the
relevant data for cardiac function is
presented when opening the case:
including the left ventricular volumetry
in all cardiac phases, the ejection fraction
and wall motion, the wall thickness and
the enhancement color overlay. The
results of the myocardial evaluation are
presented to you in easy-to-read polar
maps and graphs of the ventricular
volumes.
Functional evaluation of the heart using data from peak pulsing
window (above) and from a 4% MinDose pulsing window (below).
31
Your
Clinical Results
single source for low
Excellent visualization of intracranial arteries including
cerebral lesions with syngo.CT Neuro DSA. Saving up to
20% dose in head scans with the Adaptive Dose Shield.
Better contrast and lower dose – aortic CTA image acquired with
100 kV and SAFIRE technique demonstrates clearly the vascular
structures in detail and the aortic stent.
dose CT
SAFIRE – Sinogram Affirmed Iterative Reconstruction – helps to lower the dose or
improve image quality. The left image shows the original image. The right image
shows how iterative reconstruction can improve image quality at lower dose*.
2.5 mSv imaging of the coronary arteries including
sharp distal branches with fast 0.30 s rotation time and
0.33 mm isotropic resolution.
*In clinical practice, the use of SAFIRE may reduce CT patient dose depending on the clinical task, patient size, anatomical location, and clinical practice. A consultation
with a radiologist and a physicist should be made to determine the appropriate dose to obtain diagnostic image quality for the particular clinical task.
33
34 Open CT for all Patients
Open CT
for all Patients
Every patient is different. So is every clinical question. Our goal was to
create a new kind of CT that is actually open for every patient and
addresses the versatile needs of physicians. The result is a system with
an exclusive composition of features and functionalities that make it the
perfect fit for your dedicated clinical field: Whether you want to master
the toughest battles in cardiac or acute care, want to excel in neurology
or oncology or just want to be sure not to exclude any patient from
pediatric to bariatric, the new SOMATOM Definition AS with FAST CARE
the ideal single source CT for your needs.
With its full on-site upgradability from 20 to 128 slices, it can grow with
your demands and can be fully customized to your requirements. And,
it supports you in overcoming limitations posed by conventional CT
systems with a bore diameter of up to 80 cm and a table load capacity
of up to 300 kg.
The SOMATOM Definition AS with FAST CARE will deliver clinical
excellence independent from the given conditions and opens CT for
all patients.
35
Introduction
Open CT for all Patients
Clinical excellence for every
patient
When in comes to mastering your
challenges in everyday’s clinical practice,
you need to rely on your CT system to
deliver clinical excellence in every case
without exception. And these challenges
are various: cardiac CT requires highest
temporal resolution to freeze any motion
and make even finest details, like small
vessels, crystal clear. In acute care
scenarios, the same applies. But here
in addition, the coverage speed must
be as high as possible to quickly scan
uncooperative or unconscious patients
with short breath-holds, if needed, over
the whole body. The key to this is the
unique and renowned STRATON tube.
Next to resolution, neurology also
requires a very high gray-white matter
differentiation to distinguish precisely
the brain tissues. Here, Siemens’ unique
Neuro BestContrast is benchmark. By
separately processing medium and low
frequency information, tissue contrast
can be significantly improved without
amplifying image noise. This results in
a better signal to noise ratio.
But next to the clinical outcome, it is
equally important that the CT system is
open for all patients. No one should be
excluded by limitations of the system. For
bariatric patients, patient accommodation
and power reserves are key. Here, the
SOMATOM Definition AS is the only system
offering up 80 cm bore diameter*, 300 kg
table load capacity and a 100 kW power
generator. For pediatrics, on the other
side, the possibility to reduce kV as low
as possible is imperative. Again the
SOMATOM Definition AS delivers, with
industry’s first and only 70 kV scan modes
in single source CT. And the unique thing
is, that this can all be done with out
making compromises between image
quality, performance or clinical efficiency.
*Depending on configuration.
Speed 0.30 s
Resolution 0.24 mm
Scan any patient
with:
80 cm opening*
300 kg weight limit
2 m scan range
Coverage 128-slice
Power 100 kW
Growing with your clinical
demand
Next to clinical flexibility, the SOMATOM
Definition AS can be configured and
customized to fit virtually any setting.
Its full on-site upgradability from 20- to
128-slice configuration permits specifying
the system precisely to the customer’s clinical
requirements and financial situation, and
also gives investment protection and an
assurance to grow with future demands.
Overcoming limitations
And to offer the best financial solution
overall, a high-end CT system must meet
the infrastructure of the customer. With a
footprint of only 18 m² and flexible air- or
watercooling the SOMATOM Definition AS
can be fit in environments as small as mobile
containers or as complex as multi-room
sliding gantry scenarios.
But true flexibility does not end at performance, ergonomics or siting. It also means,
crossing borders of conventional CT. Dynamic
imaging has become a new dimension in CT
over recent years. But the challenge is going
beyond a static detector design to cover
whole organs, e.g. for whole brain perfusion
or long-range CTAs. With the innovative
Adaptive 4D Spiral, the SOMATOM Definition
AS offers the possibility to cover up to 42 cm
which is unique in single source CT. Another
example are interventions. With the only
3D guided guidance for minimally invasive
procedures, the SOMATOM Definition AS
makes interventions more accurate, thus
safer and in the end more efficient.
And there are departmental borders:
E.g. radiation therapy has different requirements regarding CT than a traditional
radiology. And they are met: With the
only high-end CT dedicated to RTP – the
SOMATOM Definition AS Open.
Managing your daily routine
In addition CARE Contrast III facilitates
contrast enhanced clinical workflow by
synchronizing CT scan and contrast media
injection. The injection parameters are
automatically transferred to the patient
protocol, the e-Logbook and to MPPS thus
completing the data for the examination
and avoiding separate documentation.
And injector protocols can be managed
at the CT console and from there also
uploaded to the injector.
Your Benefits
Enough power reserves,
large bore, and high-capacity
table for bariatric imaging
Highest spatial resolution to
visualize even small details
Full on-site upgradability
from 20 to 128 slices
Dynamic CT imaging with
up to 42 cm coverage using
the Adaptive 4D Spiral
3D image guidance in
minimally invasive
procedures simplifies
complex interventions
37
How
z-Sharp it works
Vacuum
Unique STRATON X-ray tube
The core technology that allows the
new SOMATOM Definition AS with FAST
CARE to deliver clinical excellence, is the
highly renowned STRATON™ tube with
z-Sharp™. Its revolutionary design based
on a direct anode cooling eliminates
the need for heat storage and results
in an unmatched compact design thus
allowing true temporal resolution of
up to 150 ms. Instead of decreasing
the detector elements’ size to improve
spatial resolution, z-Sharp utilizes two
overlapping X-ray beams, resulting
insignificantly increased resolution
without a corresponding increase in dose.
This provides you with the industry’s
highest isotropic resolution of 0.33 mm
at any scan and rotation speed, and at
any position within the scan field. This for
instance allows to significantly reduce
motion artifacts of the heart to perform
accurate stenosis measurements or stent
planning with outstanding precision or
fast whole body sub-mm imaging at
highest pitch revealing finest details in
long-range vascular studies, or polytrauma
patients while covering a 2 meter scan
range in approximately 10 seconds.
Cathode
Conventional tube technology
Anode
Cathode
Heat
Cooling oil
STRATON X-ray tube with z-Sharp generating
two distinct x-ray projections
Alternating focal spots
1
STRATON tube
2
Highest spatial resolution
0.4 mm objects
In addition, with the proprietary z-UHR
Technology, the system adapts for ultrahigh-resolution bone imaging for wrist,
joint, or inner ear studies pushing the
boundaries of spatial resolution even
further by providing unparalleled 0.24 mm
isotropic resolution. Neuro exams benefit
from an extremely high detail delineation
resulting from the 1,472 inplane channels
of the detector.
conventional technology
128-channel data acquisition electronics
Measured signal per detector element
0.6 mm
Measured signal per detector element
0.6 mm
1
1
0
0
1
1
1
1
1
Resulting resolution
1
1
1
1
1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2
Resulting resolution
0.6 mm
Oversampling
0.6 mm
Oversampling
39
How
Adaptiveit
4D works
Spiral Plus
4D Imaging with up to
42 cm dynamic scan range
In 2007, Siemens first introduced the
revolutionary scan mode, Adaptive 4D
Spiral, overcoming the existing limitations
of dynamic CT studies. With conventional
CT and its restricted coverage, whole
organ perfusion studies or long-range
phase resolved CTA studies, were just
not possible. The industry’s initial attempts
to conquer these limitations focused on
detector size but made no significant
progress in covering entire organs.
Today, the innovative Adaptive 4D Spiral
Plus applies a continuously repeated
bi-directional table movement, moving
the patient smoothly in and out of the
gantry over the desired scan range. This
way the coverage limitation of a static
detector design can be overcome. For
example, the new SOMATOM Definition AS
can perform a phase resolved CTA study
over a length of 42 cm, providing a clear
separation of arterial and venous phase.
Now for the first time in perfusion studies,
you can cover virtually any organ in 4D,
such as performing a complete stroke
assessment with syngo Volume Perfusion
CT Neuro.
4D Noise Reduction
syngo Volume Perfusion CT Neuro
Conventional
Perfusion
Adaptive 4D Spiral
Perfusion
Another exciting further development,
4D Noise Reduction, makes it possible to
significantly improve image quality with
no increase in dose or, alternately, reduce
dose up to 50% without compromising
image quality.
Repeated bi-directional table movement for smooth
spiral shuttle scan overcomes the limitation of
static detector design
How
Adaptiveit
3D works
Intervention Suite
3D guided interventions
The SOMATOM Definition AS puts you in
full control in any plane with 3D-guided
interventions. Giving you a more accurate
overview of your needle position and
surrounding organs during difficult
procedures. This is especially helpful
when using oblique needle positions,
whether you perform fluoroscopic or
non-fluoroscopic procedures. And,
when it comes to in-room operation,
the SOMATOM Definition AS offers
the freedom to manipulate the entire
procedure with just the touch of a button
– without ever leaving your patient’s side.
From table positioning, image windowing
to remote mouse control. The new
SOMATOM Definition AS gives you the
opportunity to easily switch between
fluoroscopic, sequential, or spiral
scanning, with a click of a button right at
the scanner. By switching to a short spiral
scan, you can extend the coverage to
visualize an area larger than a static
detector design traditionally allows.
Furthermore, the SOMATOM Definition AS
eliminates artifacts caused by the needle
material. Depending on the size of the
needle, the scan will be done in a certain
angulation of the gantry. Images will be
reconstructed as non-tilted axial slices,
giving you the same information but
without artifacts. Additional workflow
enhancements, such as auto needle
tracking, will speed up your workflow
by guaranteeing that you always have
the right view of your needle. The
benefit? As a 3D minimally invasive suite,
SOMATOM Definition AS makes your
routine and complex procedures easier
and more accurate. Adding precision
while reducing procedure time. Freeing
up the CT suite and bringing you new
revenue opportunities.
Conventional 2D Intervention
Adaptive 3D Intervention
41
syngo.via
*
Holistic oncology imaging
Cancer threatens the entire body.
Fighting it therefore demands a holistic
understanding of the disease. Irrespective
of whether potential lesions are found in
lung, liver, lymph nodes or other organs,
and regardless of whether the chest or the
abdominal radiologist makes findings, or
whether lesions are discovered in CT, MRI
or PET: the Findings Navigator collects all
findings and measurements related to the
individual patient. Everybody involved
in early detection, diagnostics and the
treatment of cancer can retrieve the most
complete information, and can see the
whole disease, and hopefully, fight it more
effectively.
These images will be registered
automatically with the CT data sets
and displayed to you on up to two
monitors at your favorite workplace.
The anatomical registration facilitates
synchronized scrolling and rotating.
Using the perfusion information provided
by the Adaptive 4D Spiral, the tumor can
be characterized and treatment response
can be evaluated fast and reliably. For
this, syngo.via* automatically looks up
and aligns data from prior examinations,
so that the treatment success can be
easily monitored. Additionally, the tumor
growth rates and tumor burden can be
calculated automatically.
From scan to diagnosis
in under 10 minutes
CT Neuro imaging is very often a matter
of life-and-death therapeutic decisionmaking. From infarctions caused by stroke
and extensive bleeding, to subarachnoid
hemorrhage and a ruptured aneurysm –
seeing them clearly is essential because
of the huge difference it makes in
determining treatment.
The new CT Neuro Engine provides tools
and workflows that help deliver a
complete and accurate status of the
vascular structures and the brain tissue
for these patients – from scanning to
diagnosis in less than 10 minutes. Using
data delivered by the Adaptive 4D Spiral,
perfusion assessment of the whole brain
can easily be integrated in the assessment.
The CT Neuro Engine also helps identify
fractures after an accident and, for
instance, uncovers the potential risk of
death when looking at the vascularity
of the neck, by identifying potential
stenoses.
are medical devices in their own rights
43
Open
Clinical Results
CT for all patients
Abdominal examination of a bariatric patient
unveils a kidney stone in the right kidney.
Extremely sharp visualization of the coronary artery
tree including distal branches with fastest 150 ms
temporal resolution and 0.33 mm spatial resolution.
Fastest volume coverage for singlesource CT of 192 mm/s to examine
multi-trauma patients for fractures
and vascular injuries in one scan
up to 2 meters.
Whole brain perfusion study with Adaptive
4D Spiral for comprehensive tissue at risk
classification in the entire organ.
Lung biopsy with 3D visualization
of double oblique needle position.
45
UPTIME
UPTIME Services
Services
A partner at your side
With Siemens, systems and services go
hand in hand. High system availability,
diagnostic confidence and optimized
workflow are crucial for the success of
your CT.
To meet your performance expectations,
we systematically focus on being proactive. That’s why we developed our
pro-active service solutions that help you
increase system availability, reliability,
and workflow efficiency. We also support
you with different types of training and
provide support for existing applications
and functionalities, even remotely.
A smart investment and
seamless support
As a pro-active service provider, Siemens
UPTIME Services focuses on real-time
remote monitoring and preventive
maintenance of medical hard- and
software. That’s how we solve problems
before they even occur, thus enabling
increased system availability, optimized
performance and workflow efficiency.
◾ Offering our innovative service portfolio
we will keep you on track:
◾ Siemens Performance Plans
◾ Siemens Guardian Program™
◾ Siemens Virus Protection
◾ Siemens Utilization Management
46 UPTIME Services
Siemens Performance Plans –
tailored to meet your specific needs
Service and maintenance are highly
important to prevent unscheduled
downtimes and thus to improve your
workflow. Siemens Performance Plans are
designed to help you run your operations
smoothly – with predictable costs, lower
risks and higher efficiency. Modules
can be combined together with your
Performance Plan Pro, Plus or Top and
an individual solution with substantial
benefits for you can be achieved. E.g. our
Siemens Virus Protection offers top-level
defense in safeguarding your CT against
viruses, providing exclusive and reliable
support in getting your system back online
again fast.
Education – broaden your
knowledge and expertise
Know-how is your key to success. With
our extensive portfolio of education and
training programs, you can deepen your
knowledge and clinical expertise.
Depending on the training type you select,
you can benefit most from the wide range
of choices in our portfolio:
◾ Individual on-site training
◾ Classroom training
Training that matches your
needs
We offer routine application training and
beyond to answer your clinical questions.
For example, stroke imaging with latest
applications and much more. We show you
how to maximize the benefits that can be
achieved with our advanced technology
helping you to optimize your workflows
so you can offer an even higher quality of
care for your patients and faster and more
efficient throughput for your clinic.
◾ Web based training
◾ Fellowships
◾ Remote assistance
47
SOMATOM
Configuration Overview
Definition AS
SOMATOM Definition AS/AS+ Excel Edition
20-slice and 40-slice config.
Access to:
Access to:
◾ All routine and advanced
applications for clinical practice
◾ Full FAST CARE functionality
like FAST Planning to optimize
patient-centric productivity
◾ Industry’s highest spatial
resolution
◾ Pediatric and bariatric CT imaging
with virtually no patient exclusion
◾ Most comprehensive low dose
CT portfolio in single source CT,
including CARE kV
◾ Full on-site upgradability up to
128 slices with 18 m² footprint
◾ Iterative reconstruction
with SAFIRE
◾ State-of-the-art cardio-vascular
imaging
◾ 3D guided interventional CT
resolution
◾ Dynamic perfusion imaging
beyond detector coverage
◾ High-speed whole body coverage
at highest spatial resolution
◾ Long range dynamic imaging
for whole organ coverage
◾ Scanner-injector coupling
including injector protocol
management
management
including CARE kV
For more details, please also visit www.siemens.com/fastcare
48 Configuration Overview
◾ Iterative reconstruction with
SAFIRE
SOMATOM Definition AS/AS+ with FAST CARE
Access to:
◾ Iterative reconstruction
with SAFIRE
◾ High performance image
reconstruction system
◾ State-of-the-art cardio-vascular
imaging with high temporal
resolution of 150 ms
◾ Ultra-long range dynamic
imaging (up to 42 cm) for
whole organ coverage
management
resolution
◾ High-speed whole body coverage
at highest spatial resolution
including CARE kV
49
SOMATOM
SOMATOM Definition
Definition
AS
AS
50
On account of certain regional limitations of sales
rights and service availability, we cannot guarantee
that all products included in this brochure are
available through the Siemens sales organization
worldwide. Availability and packaging may vary by
country and is subject to change without prior notice.
Some/All of the features and products described
herein may not be available in the United States.
The information in this document contains general
technical descriptions of specifications and options as
well as standard and optional features which do not
always have to be present
in individual cases.
Siemens reserves the right to modify the design,
packaging, specifications, and options described
herein without prior notice. Please contact your local
Siemens sales representative for the most current
information.
Note: Any technical data contained in this document
may vary within defined tolerances. Original images
always lose a certain amount of detail when
reproduced.
Global Business Unit
Siemens AG
Medical Solutions
Computed Tomography & Radiation Oncology
Siemensstr. 1
DE-91301 Forchheim
Germany
Phone: +49 9191 18-0
Fax: +49 9191 18 9998
Global Siemens Headquarters
Siemens AG
Wittelsbacherplatz 2
80333 Muenchen
Germany
Global Siemens Healthcare Headquarters
Siemens AG
Healthcare Sector
Henkestrasse 127
91052 Erlangen
Phone: +49 9131 84-0
Germany
Order No. A91CT-05014-88C1-7600 | Printed in Germany | CC 430 04124. | © 04.2012, Siemens AG
www.siemens.com/healthcare
Legal Manufacturer
Siemens AG
Wittelsbacherplatz 2
DE-80333 Muenchen
Germany

SOMATOM Definition AS

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